BibSLEIGH
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Used together with:
shape (22)
imag (16)
use (11)
reconstruct (5)
base (5)

Stem shade$ (all stems)

39 papers:

DATEDATE-2013-WangLPKC #architecture #configuration management #cost analysis #design #optimisation
Capital cost-aware design and partial shading-aware architecture optimization of a reconfigurable photovoltaic system (YW, XL, MP, JK, NC), pp. 909–912.
DACDAC-2012-LinWYSCP #configuration management
Near-optimal, dynamic module reconfiguration in a photovoltaic system to combat partial shading effects (XL, YW, SY, DS, NC, MP), pp. 516–521.
ICPRICPR-2012-XiongCLLSA #image #reduction #segmentation
Segmentation of neural stem cells/neurospheres in unevenly illuminated brightfield images with shading reduction (WX, SCC, JHL, HKL, SS, SA), pp. 1623–1626.
ICPRICPR-2012-YaoKK #artificial reality
Shading derivation from an unspecified object for augmented reality (YY, HK, AK), pp. 57–60.
CASECASE-2010-SunLJJWS #energy
An integrated control of shading blinds, natural ventilation, and HVAC systems for energy saving and human comfort (BS, PBL, QSJ, ZJ, FW, CS), pp. 7–14.
ICPRICPR-2010-HuynhRH #robust
Robust Shape from Polarisation and Shading (CPH, ARK, ERH), pp. 810–813.
ICPRICPR-2010-ShekhovtsovH #estimation #image
Joint Image GMM and Shading MAP Estimation (AS, VH), pp. 1360–1363.
SACSAC-2009-LeeJKKKC #effectiveness #process
Shader space navigator: a turbo for an intuitive and effective shading process (JHL, MHJ, DYK, SWK, MHK, JSC), pp. 945–946.
ICPRICPR-2008-HainesW #random #using
Combining shape-from-shading and stereo using Gaussian-Markov random fields (TSFH, RCW), pp. 1–4.
ICDARICDAR-2007-LuT07a #documentation #estimation #image
Binarization of Badly Illuminated Document Images through Shading Estimation and Compensation (SJL, CLT), pp. 312–316.
ICDARICDAR-2007-ZhangYT #documentation #image #using
Removing Shading Distortions in Camera-based Document Images Using Inpainting and Surface Fitting With Radial Basis Functions (LZ, AMY, CLT), pp. 984–988.
ICPRICPR-v1-2006-ZhangT #documentation #image #using
RestoringWarped Document Images using Shape-from-Shading and Surface Interpolation (LZ, CLT), pp. 642–645.
ICPRICPR-v4-2006-YoshikiSM #3d #database #image #re-engineering
Reconstruction of 3D Face Model from Single Shading Image Based on Anatomical Database (KY, HS, MM), pp. 350–353.
ICPRICPR-v2-2004-CourteilleCDG #towards
Towards Shape from Shading under Realistic Photographic Conditions (FC, AC, JDD, PG), pp. 277–280.
ICPRICPR-v2-2004-Wohler #3d #re-engineering #self
3D Surface Reconstruction by Self-Consistent Fusion of Shading and Shadow Features (CW), pp. 204–207.
ICPRICPR-v3-2004-CastelanH #constraints #fourier
Combining Data-Closeness and Fourier Domain Integrability Constraints in Shape-from-Shading (MC, ERH), pp. 115–118.
ICPRICPR-v3-2004-LiH #recognition #using
Face Recognition using Shading-Based Curvature Attributes (YL, ERH), pp. 538–541.
ICPRICPR-v3-2004-TankusSY #image #re-engineering
Reconstruction of Medical Images by Perspective Shape-from-Shading (AT, NAS, YY), pp. 778–781.
SACSAC-2003-NaganumaTM #3d #estimation #image #multi #using
Estimation of 3D Shape and Reflectance using Multiple Moire Images and Shading Model (SN, NT, AM), pp. 943–950.
ICPRICPR-v1-2002-RibeiroSH #approach
An Evidence Combining Approach to Shape-from-Shading (ER, FS, ERH), pp. 624–627.
ICPRICPR-v3-2002-RaghebH #framework #probability
A Probabilistic Framework for Specular Shape-from-Shading (HR, ERH), pp. 513–516.
ICPRICPR-v4-2002-CollingsKN #approach #image #polynomial
A Piecewise Quadratic Approach to Single Image Shape from Shading (SC, RK, LN), p. 126–?.
ICPRICPR-v1-2000-BorsHW #image #modelling #using
Terrain Modeling in Synthetic Aperture Radar Images Using Shape-from-Shading (AGB, ERH, RCW), pp. 1798–1801.
ICPRICPR-v1-2000-OrtizO #image #multi
Shape from Shading for Multiple Albedo Images (AO, GO), pp. 1786–1789.
ICPRICPR-v1-2000-WorthingtonH #recognition #using
Structural Object Recognition Using Shape-from-Shading (PLW, ERH), pp. 1738–1741.
ICPRICPR-v3-2000-TomazevicLP #comparison
A Comparison of Retrospective Shading Correction Techniques (DT, BL, FP), pp. 3568–3571.
MLDMMLDM-1999-MilanovaAOS #network #problem
Applications of Celluar Neural Networks for Shape from Shading Problem (MGM, PEMA, JOJ, MGS), pp. 51–63.
ICPRICPR-1998-OkataniD #identification #invariant #on the #problem #using
On identification of singular points using photometric invariants for global shape from shading problem (TO, KD), pp. 1787–1790.
ICPRICPR-1998-WatanabeMM #detection #image #using
Detecting changes of buildings from aerial images using shadow and shading model (SW, KM, NM), pp. 1408–1412.
ICPRICPR-1998-WorthingtonHH #recognition #using
Appearance-based object recognition using shape-from-shading (PLW, BH, ERH), pp. 412–416.
SACSAC-1998-CiancariniR #coordination #distributed #java
Coordinating distributed applets with Shade/Java (PC, DR), pp. 130–138.
ICPRICPR-1996-Goller #concurrent #image
Concurrent radar image shape-from-shading on high-performance computers (AG), pp. 589–593.
ICPRICPR-1996-HuangPC #using
Shape from shading using Ritz method with tent basis (CKH, CP, WTC), pp. 398–402.
ICPRICPR-1996-NomuraZSF #3d #data fusion #estimation #image
3-D object pose estimation based on iterative image matching: Shading and edge data fusion (YN, DZ, YS, SF), pp. 513–517.
ICPRICPR-1996-OkataniD #image #re-engineering
Reconstructing shape from shading with a point light source at the projection center: shape reconstruction from an endoscope image (TO, KD), pp. 830–834.
ICPRICPR-1996-ShioyamaJ #3d #constraints
Numerical 3-D shape inference from shading with new type of constraint (TS, WBJ), pp. 364–368.
ICPRICPR-1996-TianT #image
Shape from shading for non-Lambertian surfaces from one color image (YlT, HTT), pp. 258–262.
ICPRICPR-1996-ZhengKTA #3d #modelling
Computing 3D models of rotating objects from moving shading (JYZ, HK, KT, NA), pp. 800–804.
DACDAC-1979-SchilerG #energy #simulation
Computer simulation of foliage shading in building energy loads (MS, DPG), pp. 142–148.

Bibliography of Software Language Engineering in Generated Hypertext (BibSLEIGH) is created and maintained by Dr. Vadim Zaytsev.
Hosted as a part of SLEBOK on GitHub.